Examine the Correlation between Heat Shock Protein IbpA and Heat Tolerance in Cronobacter sakazakii

Zhi Jing Zhao; Bin Wang; Jing Yuan; Hao Yu Liang; Si Guo Dong; Ming Zeng

doi:10.3967/bes2017.080

Examine the Correlation between Heat Shock Protein IbpA and Heat Tolerance in Cronobacter sakazakii

Biomed Environ Sci. 2017 Aug;30(8):606-610. doi: 10.3967/bes2017.080.

Authors

Zhi Jing Zhao¹, Bin Wang¹, Jing Yuan², Hao Yu Liang¹, Si Guo Dong¹, Ming Zeng¹

Affiliations

¹ National Institutes for Food and Drug Control, Beijing 100050, China.
² Institute of Disease Control and Prevention, Academy of Military Medical Sciences, Beijing 100850, China.

PMID: 28807101
DOI: 10.3967/bes2017.080

Abstract

We used a proteomic approach to identify IbpA in Cronobacter sakazakii (C. sakazaki), which is related to heat tolerance in this strain. The abundance of IbpA in C. sakazakii strains strongly increased after heat shock. C. sakazakii CMCC 45402 ibpA deletion mutants were successfully constructed. The C. sakazakii CMCC 45402 ΔibpA and wild-type strains could not be distinguished based on colony morphology on LB agar plates or biochemical assays. The growth of the C. sakazakii CMCC 45402 ΔibpA mutant in heat shock conditions was indistinguishable from that of the isogenic wild-type, but showed greater heat resistance than E. coli O157:H7 strain CMCC 44828. This study suggests that the absence of a single ibpA gene has no obvious effect on the phenotype or heat resistance of the strain C. sakazakii CMCC 45402.

MeSH terms

Bacterial Proteins / genetics
Bacterial Proteins / metabolism*
Cronobacter sakazakii / genetics
Cronobacter sakazakii / physiology*
Gene Expression Regulation, Bacterial / physiology
Genotype
Heat-Shock Proteins / genetics
Heat-Shock Proteins / metabolism*
Hot Temperature*
Stress, Physiological

Substances

Bacterial Proteins
Heat-Shock Proteins